Molded paper pulp cup cover and connecting structure for cup cover plate and flip cover

ABSTRACT

A connecting structure for a molded paper pulp cup cover comprising a tearable turnover flip cover integrally formed with and arranged on a cup cover plate, where a drinking hole is formed after the flip cover is overturned. The rear side of the flip cover is connected to the hole wall of the drinking hole by at least one turnover stress connection point; the circumferential side edge of the flip cover is connected to the drinking hole by a tear line that comprises a U-shaped section and arc-shaped sections located at the two ends of the U-shaped section; tearable connecting points are formed between the U-shaped section and the arc-shaped sections and a vertical distance from the tearable connecting points to the bottom of the U-shaped section is greater than a vertical distance from the tearable connecting points to the turnover stress connecting points.

FIELD OF THE INVENTION

The utility model belongs to the technical field of molded paper pulp cup covers, in particular to a molded paper pulp cup cover and connecting structure for a cup cover plate and a flip cover.

BACKGROUND OF THE INVENTION

The molded paper pulp cup cover is very environmentally friendly and in line with the current development trend of technologies.

After the molded paper pulp cup cover is covered on the paper pulp cup, in order to facilitate sucking out the liquid inside the paper pulp cup, the method in the prior art is generally to design a drinking port on the molded paper pulp cup cover, and the drinking port is closed by a tearable flip cover, which is more hygenic and safe.

Although the molded paper pulp cup covers in the prior art have many advantages, they still have the following shortcomings:

Firstly, the tearable flip cover is connected with the drinking port through tearable connection points evenly distributed around the circumference. It is hard to tear off the tearable connection points, and excessive force may lead to shaking and leakage of liquid in the cup.

Secondly, the side wall of tearable crack is a vertical surface. When it is necessary to tear off and turn over the flip cover, there should be a crack that wide enough for the flip cover to turn up. The width of the crack is wide, which leads to the decline of thermal insulation performance.

SUMMARY OF THE INVENTION

In view of above-mentioned problems, the purpose of the present utility model is to provide a molded paper pulp cup cover and a connecting structure for cup cover plate and flip cover which is easy to tear and can improve the thermal insulation performance.

The technical solution adopted by the present utility model to achieve the above purpose follows: a connecting structure for a molded paper pulp cup cover plate and a flip cover, comprising a cup cover plate. A tearable turnover flip cover which is integrally formed with the cup cover plate is arranged on the cup cover plate, and a drinking hole is formed in the cup cover plate after the tearable turnover flip cover is overturned relative to the cup cover plate; the rear side of the tearable turnover flip cover is connected to the hole wall of the drinking hole by means of at least one turnover stress connection point; the circumferential side edge of the tearable turnover flip cover is connected to the drinking hole by means of a tear line; the drinking hole is a tapered drinking hole of which the inner diameter gradually reduces from top to bottom; the tear line comprises a U-shaped section away from the side of the turnover stress connecting point and arc-shaped sections located at the two ends of the U-shaped section; tearable connecting points are formed between the U-shaped section and the arc-shaped sections, and the two tearable connecting points are symmetrically distributed with respect to the axis line of the drinking hole; a vertical distance 1 from the tearable connecting points to the bottom of the U-shaped section is greater than a vertical distance 2 from the tearable connecting points to the turnover stress connecting points.

In a preferred embodiment, the circumferential side edge of the tearable turnover flip cover is an inclined side edge arranged outward from top to bottom.

In another preferred embodiment, the circumferential side edge and the hole wall of the drinking hole form an acute angle.

In a preferred embodiment, the circumferential side edge and the hole wall of the drinking hole form a right angle or an obtuse angle.

In a preferred embodiment, the drinking hole is in any one shape of round, oval and square.

In a preferred embodiment, the rear side of the tearable turnover flip cover is connected to the hole wall of the drinking hole through two turnover stress connection points which are arranged at intervals.

The molded paper pulp cup cover comprises a cup cover plate, and an annular part which is connected to outer fringe of the cup cover plate and is integrally formed with the cup cover plate. A tearable turnover flip cover which is integrally formed with the cup cover plate is arranged on the cup cover plate, and a drinking hole is formed in the cup cover plate after the tearable turnover flip cover is overturned relative to the cup cover plate; the rear side of the tearable turnover flip cover is connected to the hole wall of the drinking hole by means of two turnover stress connection points which are arranged at intervals; the circumferential side edge of the tearable turnover flip cover is connected to the drinking hole by means of a tear line; the drinking hole is a tapered drinking hole of which the inner diameter gradually reduces from top to bottom; the circumferential side edge of the tearable turnover flip cover is an inclined side edge arranged outward from top to bottom; the cup cover plate is provided with a downward concave formed flip cover clamping groove, and the tearable turnover flip cover is clamped in the flip cover clamping groove after being turned over relative to the cup cover plate.

In a preferred embodiment, the tearable turnover flip cover includes a closing plate body, an upward convex contact protrusion is arranged on the upper surface of the closing plate body, and a formed groove corresponding to the contact protrusion is arranged on the lower surface of the closing plate body.

In a preferred embodiment, the contact protrusion is provided with a contact surface inclined forward from top to bottom, and a slope surface connected between the top side of the contact surface and the upper surface of the closing plate body.

In a preferred embodiment, the tear line comprises an U-shaped section away from the side of the turnover stress connecting point and arc-shaped sections located at the two ends of the U-shaped section; tearable connecting points are formed between the U-shaped section and the arc-shaped sections, and the two tearable connecting points are symmetrically distributed with respect to the axis line of the drinking hole; a vertical distance 1 from the tearable connecting points to the bottom of the U-shaped section is greater than a vertical distance 2 from the tearable connecting points to the turnover stress connecting points.

Compared with the prior art, the connecting structure for molded paper pulp cover plate and flip cover has the following advantages: improving the thermal insulation performance and improving the smoothness of flipping the clip cover over; Furthermore, the tearing efficiency is further improved, the force required for tearing is greatly saved, and the design is more reasonable and humanized.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is the schematic diagram of the utility model;

FIG. 2 is the perspective schematic diagram of the utility model;

FIG. 3 is the perspective schematic diagram of the utility model from another perspective;

FIG. 4 is an enlarged schematic diagram along the line A-A in FIG. 1;

FIG. 5 is an enlarged schematic diagram at B in FIG. 4;

FIG. 6 is an enlarged schematic diagram of C in FIG. 1;

FIG. 7 is a state diagram of the torn and overturned tearable flip cover provided by the utility model.

In these figures, cup cover plate 10, U-shaped section 10 a, arc-shaped sections 10 b, annular part 100, inner convex locking part 100 a, flip cover slot 101, air outlet hole 102, tearable turnover flip cover 20, circumferential side edge 200, contact protrusion 2011, contact surface 201 a, slope surface 201 b, closing plate body 2001, formed groove 2021, drinking hole 30, turnover stress connection point 40, tearable connecting point 50, vertical distance 1 L1, and vertical distance 2 L2 are included.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENT

The following are specific embodiments of the utility model and further describe the technical scheme of the utility model with reference to the drawings, but the utility model is not limited to these embodiments.

As shown in FIG. 1 and FIG. 2, the connecting structure for a molded paper pulp cover plate and flip cover comprises a cup cover plate 10, and the outer edge of the upper surface of the cup cover plate 10 is formed with an upward convex annular protrusion, and a concave recessed area is formed between the annular protrusion and the upper surface of the cup cover plate 10. The cup cover plate 10 is provided with a tearable turnover flip cover 20 which is formed integrally with the cup cover plate 10. When the tearable turnover flip cover 20 is overturned relative to the cup cover plate 10, a drinking hole 30 is formed on the cup cover plate 10. In a preferred embodiment, the drinking hole 30 is in any shape of round, oval and square.

Of course, it can also be various drinking holes with irregular shapes, as long as it can meet the use requirements.

As shown in FIG. 5 and FIG. 6,

The rear side of the tearable turnover flip cover 20 is connected to the hole wall of the drinking hole 30 through at least one turnover stress connection point 40. In a preferred embodiment, the rear side of the tearable turnover flip cover 20 is connected to the hole wall of the drinking hole 30 through two turnover stress connection points 40 which are arranged at intervals.

The circumferential side edge of the tearable turnover flip cover 20 is connected to the drinking hole 30 by means of a tear line; the drinking hole 30 is a tapered drinking hole of which the inner diameter gradually reduces from top to bottom; circumferential side edge 200 of the tearable turnover flip cover 20 is an inclined side edge arranged outward from top to bottom. When the tearable turnover flip cover 20 is torn and overturned, it is difficult for the circumferential side of the tearable turnover flip cover 20 to contact with the hole wall of the tapered drinking hole because the drinking hole is tapered, so as to improve the smoothness of tearing and overturning, and to avoid blocking or even jamming caused by mutual contact.

At the same time, the design of the tapered drinking hole can reduce the crack width of the tear line, which can further improve the thermal insulation performance.

The circumferential side edge 200 and the hole wall of the drinking hole 30 form an acute angle.

As shown in FIG. 2 and FIG. 6,

To facilitate tearing, the tear line in the embodiment comprises an U-shaped section 10 a away from the side of the turnover stress connecting point 40 and arc-shaped sections 10 b located at the two ends of the U-shaped section 10 a; tearable connecting points 50 are formed between the U-shaped section 10 a and the arc-shaped sections 10 b, and the two tearable connecting points 50 are symmetrically distributed with respect to the axis line of the drinking hole 30; a vertical distance 1 L1 from the tearable connecting points 50 to the bottom of the U-shaped section 10 a is greater than a vertical distance 2 L2 from the tearable connecting points 50 to the turnover stress connecting points 40. With this design, the force bearing point of the trigger force is located in front of the tearable connecting points 50 when tearing. Because there is a certain distance between the force bearing point of the trigger force and the tearable connecting points 50, this distance can improve the tear off efficiency, reduce the force required for tear off, and further avoid shaking and leakage of liquid inside caused by a large tear off force.

The width of the turnover stress connection point 40 is greater than that of the tearable connecting points 50. This design is mainly to provide support strength during tearing and to facilitate tearing.

As shown in FIG. 1, FIG. 2, FIG. 4 and FIG. 5,

The molded paper pulp cup cover comprises a cup cover plate 10, and an annular part 100 which is connected to outer fringe of the cup cover plate 10 and is integrally formed with the cup cover plate 10. A tearable turnover flip cover 20 which is integrally formed with the cup cover plate 10 is arranged on the cup cover plate 10, and a drinking hole 30 is formed in the cup cover plate 10 after the tearable turnover flip cover 20 is overturned relative to the cup cover plate 10; the rear side of the tearable turnover flip cover 20 is connected to the hole wall of the drinking hole 30 by means of two turnover stress connection points 40 which are arranged at intervals; the circumferential side edge of the tearable turnover flip cover 20 is connected to the drinking hole 30 by means of a tear line; the drinking hole is a tapered drinking hole 30 of which the inner diameter gradually reduces from top to bottom; circumferential side edge of the tearable turnover flip cover 20 is an inclined side edge arranged outward from top to bottom.

Similarly, such design is also to improve the thermal insulation performance and to facilitate the turnover after tearing, and to avoid collision.

As shown in FIG. 1 and FIG. 2,

The cup cover plate 10 is provided with a downward concave formed flip cover clamping groove 101, and the tearable turnover flip cover 20 is clamped in the flip cover clamping groove 101 after being overturned relative to the cup cover plate 10. A downward concave formed flip cover clamping groove 101 is directly formed on the cup cover plate 10, which simplifies the overall structure. At the same time, the designed flip cover clamping groove 101 can be used to fix the tearable turnover flip cover 20 after it is overturned, so as to avoid the interference of the tearable turnover flip cover 20.

Furthermore, as shown in FIG. 2, the tearable turnover flip cover 20 in this embodiment includes a closing plate body 2001, an upward convex contact protrusion 2011 is arranged on the upper surface of the closing plate body 2001, and a formed groove 2021 corresponding to the contact protrusion 2011 is arranged on the lower surface of the closing plate body 2001.

As shown in FIG. 1, FIG. 2 and FIG. 4, the flip cover clamping groove 101 has a fitting surface 1 that matches with the contact surface 201 a and a fitting surface 2 that matches with the slope surface 201 b. This design facilitates the pulling out of the tearable turnover flip cover 20 from the flip cover clamping groove 101, avoiding the formation of a vacuum between the tearable turnover flip cover 20 and the groove bottom of the flip cover clamping groove 101 which would result in difficulty in pulling out the tearable turnover flip cover 20.

The upward protrusion and the formed groove 2021 corresponding to the upward protrusion can save materials and reduce the weight of the cup cover.

Then, as shown in FIG. 2, the contact protrusion 2011 is provided with a contact surface 201 a inclined forward from top to bottom, and a slope surface 201 b connected between the top side of the contact surface 201 a and the upper surface of the closing plate body 200.

The contact surface 201 a forms an angle of 91-100° with the upper surface of the cup cover plate, which also facilitates demolding.

Specifically, as shown in FIG. 2 and FIG. 6, the tear line comprises an U-shaped section 10 a away from the side of the turnover stress connecting point 40 and arc-shaped sections 10 b located at the two ends of the U-shaped section 10 a; tearable connecting points 50 are formed between the U-shaped section 10 a and the arc-shaped sections 10 b, and the two tearable connecting points 50 are symmetrically distributed with respect to the axis line of the drinking hole 30; a vertical distance 1 L1 from the tearable connecting points 50 to the bottom of the U-shaped section 10 a is greater than a vertical distance 2 L2 from the tearable connecting points 50 to the turnover stress connecting points 40.

In addition, as shown in FIG. 3 and FIG. 4, an inner convex locking part 100 a is arranged on the lower side of the inner wall of the annular part 100. When the cup cover covers the cup mouth of the paper pulp cup, the inner convex locking part 100 a is located on the lower side of the outer convex part of the outer wall of the cup mouth of the paper pulp cup, that is, the inner convex locking part 100 a and the outer convex part form a sealing lock to avoid leakage of liquid.

The cup cover plate is also provided with an air outlet hole 102 away from the tearable turnover flip cover 20.

FIG. 7 shows the state of the torn and overturned tearable flip cover 20 along the tear line when overturned.

Embodiment 2

The circumferential side edge 200 and the hole wall of the drinking hole 30 form a right angle or an obtuse angle.

The specific embodiments described herein are only examples of the spirit of the utility model. Those skilled in the technical field of the utility model can make various modifications or supplements to the described specific embodiments or adopt similar methods to replace them, without deviating from the spirit of the utility model or beyond the scope defined in the claims. 

1. A connecting structure for a molded paper pulp cup cover plate having a flip cover, the molded paper pulp cup cover comprising: a cup cover plate; a tearable turnover flip cover which is integrally formed with the cup cover plate and arranged on the cup cover plate; and a drinking hole which is formed in the cup cover plate after the tearable turnover flip cover is overturned relative to the cup cover plate; wherein a rear side of the tearable turnover flip cover is connected to the hole wall of the drinking hole by means of at least one turnover stress connection point, and a circumferential side edge of the tearable turnover flip cover is connected to the drinking hole by means of a tear line, characterized in that; the drinking hole is a tapered drinking hole of which an inner diameter gradually reduces from top to bottom; the tear line comprises a U-shaped section, hinged on a side away from the side of the turnover stress connecting point, and arc-shaped sections located at the two ends of the U-shaped section; tearable connecting points are formed between the U-shaped section and the arc-shaped sections, wherein the two tearable connecting points are symmetrically distributed with respect to the axis line of the drinking hole; and a vertical distance 1 from the tearable connecting points to the bottom of the U-shaped section is greater than a vertical distance 2 from the tearable connecting points to the turnover stress connecting points.
 2. The connecting structure for a molded paper pulp cup cover plate and a flip cover according to claim 1, characterized in that the circumferential side edge of the tearable turnover flip cover is an inclined side edge arranged outward from top to bottom.
 3. The connecting structure for a molded paper pulp cup cover plate and a flip cover according to claim 2, characterized in that the circumferential side edge and the hole wall of the drinking hole form an acute angle.
 4. The connecting structure for a molded paper pulp cup cover plate and a flip cover according to claim 2, characterized in that the circumferential side edge and the hole wall of the drinking hole form a right angle or an obtuse angle.
 5. The connecting structure for a molded paper pulp cup cover plate and a flip cover according to claim 1, characterized in that the drinking hole is one of a round, oval and square shape.
 6. The connecting structure for a molded paper pulp cup cover plate and a flip cover according to claim 1, characterized in that rear side of the tearable turnover flip cover is connected to the hole wall of the drinking hole through two turnover stress connection points which are arranged at intervals.
 7. A molded paper pulp cup cover, comprising: a cup cover plate having an annular part which is connected to an outer fringe of the cup cover plate and is integrally formed with the cup cover plate; a tearable turnover flip cover which is integrally formed with the cup cover plate and arranged on the cup cover plate; and a drinking hole which is formed in the cup cover plate after the tearable turnover flip cover is overturned relative to the cup cover plate; wherein a rear side of the tearable turnover flip cover is connected to the hole wall of the drinking hole by means of two turnover stress connection points which are arranged at intervals, and a circumferential side edge of the tearable turnover flip cover is connected to the drinking hole by means of a tear line, characterized in that; the drinking hole is a tapered drinking hole of which an inner diameter gradually reduces from top to bottom; the circumferential side edge of the tearable turnover flip cover is an inclined side edge arranged outward from top to bottom; the cup cover plate is provided with a downward concave formed flip cover clamping groove; and the tearable turnover flip cover is clamped in the flip cover clamping groove after being overturned relative to the cup cover plate.
 8. The molded paper pulp cup cover according to claim 7, characterized in that the tearable turnover flip cover includes a closing plate body, an upward convex contact protrusion is arranged on the upper surface of the closing plate body, and a formed groove corresponding to the contact protrusion is arranged on the lower surface of the closing plate body.
 9. The molded paper pulp cup cover according to claim 8, characterized in that the contact protrusion is provided with a contact surface inclined forward from top to bottom, and a slope surface connected between the top side of the contact surface and the upper surface of the closing plate body, and the flip cover clamping groove has a fitting surface 1 that matches with the contact surface and a fitting surface 2 that matches with the slope surface.
 10. The molded paper pulp cup cover according to claim 7, characterized in that the tear line comprises: a U-shaped section, hinged on a side away from the side of the turnover stress connecting point and arc-shaped sections located at the two ends of the U-shaped section; tearable connecting points formed between the U-shaped section and the arc-shaped sections, wherein the two tearable connecting points are symmetrically distributed with respect to the axis line of the drinking hole; and a vertical distance 1 from the tearable connecting points to the bottom of the U-shaped section that is greater than a vertical distance 2 from the tearable connecting points to the turnover stress connecting points. 